Group (mathematics)/Catalogs: Difference between revisions

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The mathematical [[group|group]] concept represents a rather simple and natural generalization of common phenomena,  so '''examples of groups''' are easily found,  from all areas of mathematics.


Most '''examples of groups''' come from considering some object and a set of bijective functions from the object to itself, which preserve some structure that this object has.
 
 
==Different classes of groups==
Three different classes of groups are commonly studied:
*[[Finite discrete group|Finite discrete groups]]
*[[Infinite discrete group|Infinite discrete groups]]
*[[Continuous group|Continuous groups]]
 
 
 
===Examples of finite discrete groups===
{|align="right" cellpadding="10" style="background-color:lightblue; width:40%; border: 1px solid #aaa; margin:4px; font-size: 90%;"
|'''The cyclic group of order 4.'''
 
Illustration of the cyclic group of order 4
[[Image:Examplesofgroups1.gif|right|Example of groups]]
|}
 
 
# The trivial group consisting of just one element.
# The group of order two,  which f.i. can be represented by addition [[modular arithmetic|modulo]] 2 or the set  {-1, 1} under multiplication.
# The group of order three.
# The [[cyclic group]] of order 4,  which can be represented by addition [[modular arithmetic|modulo]] 4. 
# The noncyclic group of order 4,  known as the "Klein [[viergruppe]]".  A simple physical model of this group is two separate on-off switches.
 
 
 
 
Many '''examples of groups''' come from considering some object and a set of bijective functions from the object to itself, which preserve some structure that this object has.


* [[Topological groups]]:
* [[Topological groups]]:

Revision as of 10:25, 19 November 2007

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An informational catalog, or several catalogs, about Group (mathematics).

The mathematical group concept represents a rather simple and natural generalization of common phenomena, so examples of groups are easily found, from all areas of mathematics.


Different classes of groups

Three different classes of groups are commonly studied:


Examples of finite discrete groups

The cyclic group of order 4.

Illustration of the cyclic group of order 4

Example of groups


  1. The trivial group consisting of just one element.
  2. The group of order two, which f.i. can be represented by addition modulo 2 or the set {-1, 1} under multiplication.
  3. The group of order three.
  4. The cyclic group of order 4, which can be represented by addition modulo 4.
  5. The noncyclic group of order 4, known as the "Klein viergruppe". A simple physical model of this group is two separate on-off switches.



Many examples of groups come from considering some object and a set of bijective functions from the object to itself, which preserve some structure that this object has.